TY - JOUR
T1 - Nonlinear analysis of condensed-phase surface combustion
AU - Garbey, Marc
AU - Kaper, Hans G.
AU - Leaf, Gary K.
AU - Matkowsky, Bernard J.
PY - 1990/1/1
Y1 - 1990/1/1
N2 - This article is concerned with the structure and stability properties of a combustion front that propagates in the axial direction along the surface of a cylindrical solid fuel element. The fuel consists of a mixture of two finely ground metallic powders, which combine upon ignition in a one-step chemical reaction. The reaction is accompanied by a melting process, which in turn enhances the reaction rate. The combustion products are in the solid state. The reaction zone, inside which the melting occurs, is modelled as a front that propagates along the surface of the cylinder. The different modes of propagation that have been observed experimentally (such as single- and multiheaded spin combustion and multiple-point combustion) are explained as the results of bifurcations from a uniformly propagating plane circular front. The stability properties of the various modes are discussed.
AB - This article is concerned with the structure and stability properties of a combustion front that propagates in the axial direction along the surface of a cylindrical solid fuel element. The fuel consists of a mixture of two finely ground metallic powders, which combine upon ignition in a one-step chemical reaction. The reaction is accompanied by a melting process, which in turn enhances the reaction rate. The combustion products are in the solid state. The reaction zone, inside which the melting occurs, is modelled as a front that propagates along the surface of the cylinder. The different modes of propagation that have been observed experimentally (such as single- and multiheaded spin combustion and multiple-point combustion) are explained as the results of bifurcations from a uniformly propagating plane circular front. The stability properties of the various modes are discussed.
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U2 - 10.1017/S0956792500000061
DO - 10.1017/S0956792500000061
M3 - Article
AN - SCOPUS:5244259352
SN - 0956-7925
VL - 1
SP - 73
EP - 89
JO - European Journal of Applied Mathematics
JF - European Journal of Applied Mathematics
IS - 1
ER -